Anal. Subs., 0.2027; AgBr, 0.1551. Calcd

given by Pickard and Kenyon2 for the semicarbazone of. 3-ortanone. Reaction of Methoxy-4-butyne-2 with Methyl Alcohol.-. A sample of this acetylene* w...
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Oct., 1935 Anal. Calcd. for C~oHztOt: C, 68.89; H, 12.73. Found: C, 69.00; H, 12.79. IIydrolysis of a 1-ml. sample yielded a ketone which was in turn converted to the semicarbazone. The latter melted a t 112-113' which agrees with the value of 112' given by Pickard and Kenyon2 for the semicarbazone of 3-ortanone. Reaction of Methoxy-4-butyne-2 with Methyl Alcohol.A sample of this acetylene* was obtained through the courtesy of Dr. Wallace H. Carothers of E. I. du Pont de Nemours & Company to whom our sincere thanks are extended. The catalyst was prepared as described above and the reaction carried out in the usual way. Forty-two grams of the acetylene yielded 42 g. of 2,2,4-trimethoxybutane, b. p. 67-69" at 30 mm.; yield, 57%. This compound has been obtained previously from vinylacetylene.4

NOTES

2007

Anal. Subs., 0.2027; AgBr, 0.1551. Calcd. for C9H708Br: Br, 32.89. Found: Br, 32.56. CONTRIBUTION FROM THE CHEMICAL LABORATORY OF NORTHWESTERN UNIVERSITY EVANSTON, ILLINOIS

RECEIVED JULY 26, 1935

Optical Rotation Study of the New Orally Effective Principle of Ergot BY E. C. KLEIDERER

Commercial production of the orally effective principle recently isolated from ergot has provided an adequate source for an intensive study of its properties. The free base, called ergotocin by Kharasch (2) Pickard and Kenyon, J . Chcm. SOC.,103, 1936 (1913). and Legault, was crystallized from benzene and JOURNAL, 66, 1169 (3) Jacobson, Dykstra and Carothers, THIS (1954). dried in vacuo for about eight hours. It melted (4) Killian, Hennion and Nieuwland, ibid., 56, 1786 (1934). a t 157-158" (corr., bath at 150' when sample CONTRIBUTION FROM THE was introduced). The maleate salt was prepared CHEMICAL LABORATORIES OF THE UNIVERSITY OF NOTREDAME from the crystalline base, and dried in vacuo. 28, 1935 NOTREDAME,INDIANA RECEIVEDFEBRUARY The initial specific rotations of the free base in various solvents are given below. All rotations in this investigation were made in a one-decimepBromophenacy1 Formate, a Solid Derivative ter tube a t 28' unless otherwise stated. Due of Formic Acid BY CHARLESD. HURDAND ROBERTE. CHRIST

It was found by Judefind and Reid' that many aliphatic acids could be identified easily as their 9-bromophenacyl esters. These solid esters made excellent derivatives for the acids. According to these authors, however, formic acid gave negative results. In contrast to this statement, we have found that formic acid behaves regularly. The preparation of p-bromophenacyl formate is a simple matter and the compound makes an admirable derivative. It melts at 140'. One gram of sodium formate (solid) was dissolved in 5 cc. of water and 10 cc. of 95% alcohol. Then 1 g. of p-bromophenacyl bromide was added. The solution was boiled until nearly all the solvent had disappeared. More alcohol was added and it was boiled another half hour until the solvent had nearly disappeared. Finally, the product was dissolved in dilute alcohol and then cooled. The crystalline product was filtered and recrystallized from dilute alcohol. A total of 0.38 g. of product was obtained which possessed a melting point of 140'. Equally good results were obtained by refluxing instead of boiling away the solvents. Then, the first amount of alcohol is sufficient. (1) Judefind and Reid, THIS JOURNAL, 49, 1052 (1920).

TABLE I Solvent

Distilled water

Wt. and vol. of solvent 0.0276 g. in 10

Abs. methyl alcohol Cyclohexanol Chloroform Benzene

OD

cc. 4-0.21" ,0485 g. in 15 cc. tube, 2 dm. .26' .00659 g . in 1 cc. (micro) .21' ,0179 g. in 10 .08' at cc. 50' ,0164 g. in 10 - . l o o at cc. 75 '

+ + -

blv

+76.1"

+40.2' $31.6' -44.7' 50' -61.0' 75'

at at

to the slight solubility of the base in cold chloroform and benzene, the rotations in these solvents were taken in a Landolt heating chamber. The rotation of the methyl alcoholic solution of the free base on standing at room temperature became more dextro as shown in Table IT, while no change was observed on a water solution of the free base after standing at room temperature for one hundred hours. Time, hr. Initial [ ~ ] Z * D +40.2'

TABLE I1 17 30 +48.0" +%.lo

71.5 $59.6'

95.5 +61.8O

The methyl alcohol was evaporated from the sample which had stood ninety-five and one-half hours, the residue recrystallized from benzene and the dried (in vacuo) product dissolved in